Litcius/Paper detail

The transcriptional response of cortical neurons to concussion reveals divergent fates after injury

Mor R. Alkaslasi, Eliza Y. H. Lloyd, Austin S. Gable, Hanna Silberberg, Héctor E. Yarur, Valerie S. Tsai, Mira Sohn, Gennady Margolin, Hugo A. Tejeda, Claire E. Le Pichon

2025Nature Communications11 citationsDOIOpen Access PDF

Abstract

Traumatic brain injury (TBI) is a risk factor for neurodegeneration, however little is known about how this kind of injury alters neuron subtypes. In this study, we follow neuronal populations over time after a single mild TBI (mTBI) to assess long ranging consequences of injury at the level of single, transcriptionally defined neuronal classes. We find that the stress-responsive Activating Transcription Factor 3 (ATF3) defines a population of cortical neurons after mTBI. Using an inducible reporter linked to ATF3, we genetically mark these damaged cells to track them over time. We find that a population in layer V undergoes cell death acutely after injury, while another in layer II/III survives long term and remains electrically active. To investigate the mechanism controlling layer V neuron death, we genetically silenced candidate stress response pathways. We found that the axon injury responsive dual leucine zipper kinase (DLK) is required for the layer V neuron death. This work provides a rationale for targeting the DLK signaling pathway as a therapeutic intervention for traumatic brain injury. Beyond this, our approach to track neurons after a mild, subclinical injury can inform our understanding of neuronal susceptibility to repeated impacts.

Topics & Concepts

Traumatic brain injuryNeuroscienceNeuronNeurodegenerationATF3PopulationBiologyAxonConcussionProgrammed cell deathMedicinePoison controlGeneGeneticsInternal medicineInjury preventionGene expressionPsychiatryApoptosisPromoterDiseaseEnvironmental healthTraumatic Brain Injury and Neurovascular DisturbancesTraumatic Brain Injury ResearchS100 Proteins and Annexins